Propulsion Systems Design • Rocket engine basics • Solid rocket motors • Liquid rocket engines • Monopropellants • Bipropellants • Propellant feed systems • Hybrid rocket engines • Auxiliary propulsion systems U N I V E R S I T Y O F Rocket Propulsion MARYLAND © 2004 David L. Akin - All rights reserved Launch and Entry Vehicle Design http://spacecraft.ssl.umd.edu Thermal Rocket Exhaust Velocity • Exhaust velocity is   γ−1     2γ ℜT p γ 0  e  V = 1 −    e γ −1 M   p   0   where M ≡ average molecular weight of exhaust Joules ℜ ≡ universal gas const.= 8314.3 mole°K γ ≡ ratio of specific heats ≈ 1.2 U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design €€ € € Ideal Thermal Rocket Exhaust Velocity • Ideal exhaust velocity is 2γ ℜT 0 V = e γ −1 M • This corresponds to an ideally expanded nozzle • All thermal energy converted to kinetic energy of exhaust • Only a function of temperature and molecular weight! U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design € Thermal Rocket Performance • Thrust is T = m˙ V + ( p − p )A e e amb e • Effective exhaust velocity   A c T = m˙ c ⇒ c = V + ( p − p ) e  I =    e e amb sp m˙ g   0 • Expansion ratio   1 γ−1 1         A γ + 1 p γ γ + 1 p γ γ−1 t  e   e  =   1 −      A  2   p  γ −1   p   e 0 0   U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design € € € € Nozzle Design Pressure ratio p /p =100 (1470 psi-->14.7 psi) • 0 e A /A =11.9 e t Pressure ratio p /p =1000 (1470 psi-->1.47 psi) • 0 e A /A =71.6 e t Difference between sea level and ideal vacuum V • e γ−1   V p γ e  e  = 1−   V p   e,ideal 0 I =455 sec --> I =333 sec • sp,vacuum sp,sl U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design € Solid Rocket Motor From G. P. Sutton, Rocket Propulsion Elements (5th ed.) John Wiley and Sons, 1986 U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design Solid Propellant Combusion Characteristics From G. P. Sutton, Rocket Propulsion Elements (5th ed.) John Wiley and Sons, 1986 U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design Solid Grain Configurations From G. P. Sutton, Rocket Propulsion Elements (5th ed.) John Wiley and Sons, 1986 U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design Short-Grain Solid Configurations From G. P. Sutton, Rocket Propulsion Elements (5th ed.) John Wiley and Sons, 1986 U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design Advanced Grain Configurations From G. P. Sutton, Rocket Propulsion Elements (5th ed.) John Wiley and Sons, 1986 U N I V E R S I T Y O F Rocket Propulsion MARYLAND Launch and Entry Vehicle Design